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There are 17 results.
Anergy2Plus - Demonstration and expansion of an anergy network as part of a holistic energy concept and plus energy quarter
The overall objective of the project is to pursue and demonstrate a holistic approach to the design, construction and ultimately the use of the residential quarter in the context of energy supply. Especially in the area of thermal energy supply, a project with lighthouse character on the way to a plus-energy quarter is to be created by demonstrating the innovative supply concept based on an anergy network.
BIMaterial Process Design for Material Building Pass
Building Information Modelling supported compilation of a Material Building Pass; as a qualitative and quantitative documentation of the material composition of, and the material distribution within, a building structure. This project is a central milestone towards standardized, BIM-generated building material passes.
CityStore - Sondierung des wesentlichen F&E-Bedarfs zur Optimierung von städtischen Energiespeichern in integrierten Energiesystemen
CityStore pursues a first-of-its-kind, innovative approach on spatial location of storage needs and potentials. This includes the evaluation of concrete challenges and prerequisites as well as the identification of useful storage technologies and capacities. Model calculations for the model cities Graz and Weiz will be carried out. If, and to which extent, the results can be generalized will be investigated in the Follower Region South Burgenland. The results should enable optimized planning and realization of urban energy storage facilities – thereby enabling targeted investments in energy infrastructure to achieve (local) climate and energy targets.
EM Städte - Monitoring and evaluation of urban energy flows
In the first phase of the project, the data source of the energy statistics will be analyzed. Based on the findings of the analysis a methodology on build up regional energy balances will be developed. The methodology will be integrated into the Senflusk tool and tested on five reference cities in Austria.
Eco.District.Heat - Potentials and restrictions of grid-bound heating systems of urban areas
Aim of the project Eco.District.Heat is to provide strategic decision-making support that enables Austrian towns and cities to deal with aspects of grid-bound heating (and cooling) systems in accordance with integrated spatial and energy planning from a holistic perspective when elaborating urban energy concepts.
KityVR - Artificial intelligence techniques to implement CityGML models and VR visualization
The goal of the project is to link 3D city models and virtual reality for energy-relevant applications as key-enabler for digital planning, construction and operational management. Missing data will be calculated using statistical enrichment methods.
MISSION KS 30 - Mission Klagenfurt climate-neutral and smart until 2030
Updating the Smart City Strategy (SCS) of Klagenfurt to achieve climate neutrality by 2030 and adapting the indicators to the Sustainable Development Goals (SDGs) of the UN. Fulfilling the participation requirements for the urban mission of Horizon Europe "100 Climate-neutral Cities by 2030".
Plus Energy Melk - Path for the realization of Plus-Energy-Districs in Melk
The city of Melk has set itself the goal of playing a pioneering role in renewable energy supply and climate protection. In this context, an initiative aimed at implementing Positive Energy Districts. Two urban development projects are currently underway to examine under which framework conditions, technical and organisational solutions Positive Energy Districts can be realised. A proactive participation process aims at informing developers and investors as well as other stakeholders about the realization of PlusEnergy concepts.
Plus-Energy-Campus - Energy-flexible Positive Energy District with "Living Lab"
The project explored paths to a sustainable, future-proof Positive Energy-District (PED) in the area surrounding the location of the University of Applied Sciences Vienna (FH-Technikum Wien). The feasibility of a new university building as a Plus-Energy teaching building had been examined in detail to prepare its implementation. Central innovation contents are the energetic flexibilization of the new building and the quarter as well as the conception of the Plus-Energy building as a "Living Lab".
SmartCity Baumgarten - Demonstration of an anergy network and implementation of climate-friendly solutions in existing districts
Implementation of a cross-property anergy network for the supply of heating, cooling and electricity in an existing neighbourhood. With this demonstration project, a technical-legal alternative for areas outside of district heating supply is developed, which makes it possible for neighbourhoods to join together to use renewable energies in common.
SmartQ+ Bruck/Leitha - Energy saving potentials through neighbourhood and community planning
First-time linking of transport and energy simulation models for municipal planning in order to visualise (energy) saving potentials in settlement development and effects of planning projects on mobility demand and the energy network of a municipality in an interactive visualisation.
Stanz+ - An innovative, energy-flexible plus-energy district - the centre of the village Stanz
Stanz+ is working on the implementation of an energy strategy for structurally weak municipalities with specific measures for revitalisation and re-densification in the building stock as well as the integration of renewable energy sources in the municipality of Stanz im Mürztal (Styria). The project includes multipliable approaches towards energy autonomy, hybrid use of energy networks for flexible usage and an energetic revitalisation of the village centre with the involvement of users in the "Rural Pioneers Community" for the usage of energy services.
TANZ - Exploration of a regional living lab: Tourism as an opportunity for the energy transition in Pinzgau
Exploration for a regional living lab to accelerate Austria's climate neutrality in 2040 in the tourism region of Pinzgau. Based on numerous preliminary works, model solutions (“Realtests”) for the innovation fields of sector coupling, energy communities and sustainable heating solutions were designed, the organisational structure of the living lab is developed and stakeholders were actively involved.
Urban district heating extended – Development of flexible and decarbonized urban district heating systems
Development of innovative urban district heating systems by integration of long-term thermal storage, large scale heat pumps, large scale solar thermal installations, waste heat recovery and analysis and evaluation by simulation. The results of this project will provide templates for technology selection, system design and merit order for new urban district heating areas.
VITALITY District - Optimized energy concepts in the early planning phase of resilient, energy-efficient neighbourhoods
The aim of the VITALITY District project is to coordinate the total (electrical and thermal) load and generation profile in the design phase of urban areas and neighbourhoods in order to optimize the energy concept of energy-efficient districts. Hence smart city indicators in detailed level (buildings, individual technologies, public spaces) as well as models, principles and catalogs of criteria for energy-optimized urban neighbourhoods are going to be created. The results are going to be presented in compact form on the district level in order to serve as input for future urban planning projects.
digiactiv - digital transformation for more interactivity in MEP-(mechanical, electrical and plumbing-)planning
The aim of the digiactiv project is to improve the interoperability between the different stakeholders in the building construction sector using open and neutral semantic data models. With digital transformation processes, digiactiv helps to increase the quality of planning and the operation of buildings, as well as to minimize the interface risk between various stakeholders.
ÖKO-OPT-QUART - Economically optimized control and operating mode of complex energy networks of future city districts
In the project ÖKO-OPT-QUART energy-based, economic and control-orientated models will be developed in order to simulate the operating mode of complex, sustainable energy networks in city districts. For an exemplary configuration these models will be combined to an overall model which allows a realistic economic comparison of different control strategies. The final goal of the project is the development of a method for the systematic design of cost-optimized, predictive control strategies for complex energy networks in city districts.